Window regulator and jig

ABSTRACT

[Problem] A subject is to provide a window regulator and a jig which facilitate assembly. 
     [Means for Resolution] A wind regulator includes a drum configured to be able to rotate in a normal direction/reverse direction, an annular wire  71  partly wound around a drum, guide members  81, 83, 91  and  93  configured to guide the wire  71  in such a manner that the wire  71  is arranged along a direction of upward and downward movement of a window glass  53,  slack preventing means configured to urge the wire  71  in a stretching direction and eliminate the slack of the wire  71,  and window glass mounting means  101  and  103  configured to mount the window glass  53  to a portion of the wire  71  extending along the direction of upward and downward movement of the window glass  53,  and a bracket  131  being mounted rotatably on the inner panel and having the guide member  83,  and being configured to guide the guide member  83  to a mounting position on the inner panel is provided.

TECHNICAL FIELD

The present invention relates to a window regulator including a drum mounted on an inner panel of a door on the side of a surface opposing an outer panel and configured to be able to rotate in a normal direction and a reverse direction, an annular wire partly wound around the drum, a guide member mounted on the inner panel of the door on the side of the surface opposing the outer panel and configured to guide the wire so that the wire is arranged along a direction of upward and downward movement of a window glass, slack preventing means configured to urge the wire in a stretching direction and eliminate the slack of the wire, and window glass mounting means configured to mount the window glass to the wire at a portion extending along the direction of upward and downward movement of the window glass, in which the wire is moved by rotating the drum in the normal direction or the reverse direction to move the window glass upward and downward, and a jig used for assembling the window regulator.

BACKGROUND ART

Referring to FIG. 8, an example of a window regulator using a wire will be described. In the drawing, a window regulator 5 for moving a window glass 3 upward and downward is disposed in a space between an inner panel (inside panel) and an outer panel (outside panel) which constitute a door panel 1.

Subsequently, a configuration of the window regulator 5 will be described. A drum 9 is provided on the inner panel on the side of the surface opposing the outer panel via a base 7. The drum 9 is configured to be rotated in a normal direction/a reverse direction by a handle 11. A wire 13 has a substantially annular shape and is partly wound around the drum 9.

The side of the surface of the inner panel of the door opposing the outer panel is provided with an upper guide member (pulley) 15 and a lower guide member (pulley) 16 configured to guide the wire 13. The wire 13 is arranged along the direction of upward and downward movement of the window glass 3 (the direction indicated by an arrow A in the drawing) by the upper guide member 15 and the lower guide member 16.

Window glass mounting means 19 for mounting the window glass 3 is provided on a portion of the wire 13 between the upper guide member 15 and the lower guide member 16 (a portion of the wire 13 extending along the direction of upward and downward movement of the window glass 3).

Then, the window glass mounting means 19 is provided with slack preventing means (not shown) configured to urge the wire 13 in a stretching direction (the directions indicated by an arrow B and an arrow C in the drawing) and eliminate the slack of the wire 13.

An operation of the configuration described above will be described.

The window glass 3 is moved upward and downward by moving the wire 13 by operating the handle 11 to rotate the drum 9 in the normal direction or the reverse direction (for example, see Patent Document 1).

Patent Document 1: JP-A-55-30095 (Specification from p. 2 to p. 3, FIG. 1, FIG. 2)

DISCLOSURE OF THE INVENTION Problems to be Solved by the Invention

In the window regulator 5 shown in FIG. 8, the wire 13 is urged in the stretching direction (the direction indicated by the arrow B and the direction indicated by the arrow C) by the slack preventing means.

When assembling the window regulator 5, the base 7 provided with the drum 9 is mounted first, and then the upper guide member 15 and the lower guide member 16 are mounted. The guide member mounted at last of the upper guide member 15 and the lower guide member 16 is mounted on a predetermined position on the inner panel against an urging force of the slack preventing means. In addition, this operation is an operation to be performed in a narrow space between the outer panel and the inner panel.

Therefore, there is a problem of difficulty in assembly.

In view of such a problem, it is an object of the present invention to provide a window regulator which may be assembled easily and a jig.

Means for Solving the Problems

The invention according to Claim 1 for solving the above-described problem is a window regulator including a drum mounted on an inner panel of a door on the side of a surface opposing an outer panel and configured to be able to rotate in a normal direction and a reverse direction, an annular wire partly wound around the drum, a guide member mounted on the inner panel of the door on the side of the surface opposing the outer panel and configured to guide the wire so that the wire is arranged along a direction of upward and downward movement of a window glass, slack preventing means configured to urge the wire in a stretching direction and eliminate the slack of the wire, and window glass mounting means configured to mount the window glass to the wire at a portion extending along the direction of upward and downward movement of the window glass, in which the wire is moved by rotating the drum in the normal direction or the reverse direction to move the window glass upward and downward, characterized in that a bracket being mounted rotatably on the inner panel and having the guide member at a portion other than a center of rotation, and being configured to guide the guide member to a mounting position on the inner panel is provided.

The slack preventing means is configured to absorb the slack of the wire to prevent the wire from coming off the guide member.

When the wire is moved by rotating the drum in the normal direction or the reverse direction, the window glass mounted on the wire is moved upward and downward.

When the guide member is mounted on the inner panel, the bracket is mounted on the inner panel, the bracket is rotated against the urging force of the slack preventing means, and the guide member is guided to the mounting position on the inner panel.

The invention according to Claim 2 is the window regulator according to Claim 1, characterized in that one of end portions of the bracket is mounted rotatably on the inner panel and the guide member is provided at a midsection thereof.

The invention according to Claim 3 is the window regulator according to Claim 1 or 2, characterized in that a rotating plane of the bracket is a plane intersecting the inner panel.

The invention according to Claim 4 is the window regulator according to Claim 1 or 2, characterized in that the rotating plane of the bracket is substantially parallel to the inner panel.

The invention according to Claim 5 is a jig used when assembling a window regulator including a drum mounted on an inner panel of a door on the side of a surface opposing an outer panel and configured to be able to rotate in a normal direction and a reverse direction, an annular wire partly wound around the drum, a guide member mounted on the inner panel of the door on the side of the surface opposing the outer panel and configured to guide the wire so that the wire is arranged along a direction of upward and downward movement of a window glass, slack preventing means configured to urge the wire in a stretching direction and eliminate the slack of the wire, and window glass mounting means configured to mount the window glass to the wire at a portion extending along the direction of upward and downward movement of the window glass, in which the wire is moved by rotating the drum in the normal direction or the reverse direction to move the window glass upward and downward, characterized in that an inner panel mounting portion being engageable and disengageable with respect to the inner panel and being rotatable with respect to the inner panel in a state of engaging the inner panel, and a guide member mounting portion which allows engagement and disengagement with the guide member.

The slack preventing means is configured to absorb the slack of the wire to prevent the wire from coming off the guide member.

When the wire is moved by rotating the drum in the normal direction or the reverse direction, the window glass mounted on the wire is moved upward and downward.

When mounting the guide member on the inner panel, the guide member is engaged with the jig, and the jig is engaged with the inner panel. The jig is rotated against the urging force of the slack preventing means to guide the guiding member to the mounting position on the inner panel to mount the guide member on the inner panel. Then, the jig is disengaged from the guide member and the inner panel.

Here, in the invention according to Claim 1 to Claim 5, a resilient member includes a metal or resin spring, foamed resin, but is not limited thereto. The guide member for guiding the wire includes a pulley and a fixed guide formed with a groove which allows engagement with the wire on an outer peripheral surface thereof, but is not limited thereto.

Advantage of the Invention

According to the invention in Claims 1 to 4, the bracket is mounted rotatably on the inner panel. Therefore, the guide member may be guided to the mounting position on the inner panel only by rotating the bracket, so that easy assembly is achieved.

According to the invention in Claim 2, one of the end portions of the bracket is mounted rotatably on the inner panel and the guide member is provided at the midsection thereof. Therefore, the bracket may be rotated with a weak force by the principle of a lever only by applying an operating force to the side of the other end portion of the bracket. In other words, the guide member may be guided to the mounting position on the inner panel with the weak force, so that easy assembly is achieved.

The side of the surface of the inner panel opposing the outer panel is needed to have a portion where components or the like cannot be disposed (a dead space) so as to avoid interference with the rotating bracket. However, according to the invention in Claim 3, the rotating plane of the bracket is the plane intersecting the inner panel. Therefore, only a small dead space is necessary on the side of the surface of the inner panel opposing the outer panel.

According to the invention in Claim 4, the rotating plane of the bracket is substantially parallel to the inner panel. Therefore, it is also applicable to a door whose distance between the inner panel and the outer panel is small (a door having a small thickness).

According to the invention in Claim 5, the jib may be mounted rotatably on the inner panel. Therefore, the guide member may be guided to the mounting position on the inner panel only by rotating the jig, so that easy assembly is achieved.

BEST MODES FOR CARRYING OUT THE INVENTION First Embodiment

Referring to the drawings, a first embodiment of the present invention will be described.

First of all, referring to FIG. 1 to FIG. 5, a window regulator according to this embodiment will be described. FIG. 1 is a drawing of a door provided with the window regulator according to this embodiment in a state in which an inner panel is removed viewed from a cabin side, FIG. 2 is a drawing showing the inner panel to be mounted on the door in FIG. 1, FIG. 3( a) is an enlarged view, partly broken, of a wire drive unit in FIG. 1, FIG. 3( b) is an explanatory drawing of second slack preventing means, FIG. 4 is a perspective view of a bracket in FIG. 1, and FIG. 5 is a perspective view of the window regulator provided for assembly.

As shown in FIG. 1 and FIG. 2, a window regulator 55 for moving a window glass 53 upward and downward is disposed in a space between an inner panel 50 (inside panel) and an outer panel (outside panel) 51 which constitute a door panel.

Subsequently, a configuration of the window regulator 55 will be described. The inner panel 50 is formed with mounting holes 50 a, 50 b, and 50 c. A wire drive unit 57 is mounted on a surface of the inner panel 50 opposing the outer panel 51 using the mounting holes 50 a, 50 b, and 50 c. More specifically, the wire drive unit 57 is provided with bolts to be inserted into the mounting holes 50 a, 50 b, and 50 c. Then, the wire drive unit 57 is mounted on the inner panel 50 by the bolts inserted into the mounting holes 50 a, 50 b, and 50 c and tightened with nuts screwed on the inserted portions thereof.

As shown in FIG. 3, a drum 65 is mounted rotatably on a base 61 of the wire drive unit 57. The drum 65 is configured to be rotated in a normal direction or a reverse direction by a motor 63. Then, a wire 71 has a substantially annular shape and is partly wound around the drum 65.

Referring back to FIG. 1 and FIG. 2, a first upper guide member 81 and a first lower guide member 83 for guiding the wire 71 are provided on the surface of the inner panel 50 opposing the outer panel 51 so as to extend along the directions of upward and downward movements of the window glass 53. Also, a second upper guide member 91 and a second lower guide member 93 are provided on the surface of the inner panel opposing the outer panel 51 so as to extend along the directions of upward and downward movements of the window glass 53. The first upper guide member 81 is mounted using a mounting hole 50 d of the inner panel 50. The first lower guide member 83 is mounted using a mounting hole 50 e of the inner panel 50. The second upper guide member 91 is mounted using a mounting hole 50 f of the inner panel 50. The second lower guide member 93 is mounted using a mounting hole 50 g of the inner panel 50. More specifically, the first upper guide member 81, the second upper guide member 91, and the second lower guide member 93 are provided with bolts to be inserted into the mounting holes 50 d, 50 f, and 50 g. Then, the first upper guide member 81, the second upper guide member 91, and the second lower guide member 93 are fixed to the inner panel 50 by the bolts inserted into the mounting holes 50 d, 50 f, and 50 g and tightened with nuts screwed on the inserted portions thereof.

Members other than the first lower guide member 83 in this embodiment are pulleys. Also, the first lower guide member is a fixed guide formed with a groove which allows engagement of the wire 71 on an outer peripheral surface thereof. Furthermore, the first upper guide member 81 is supported on the base 61 of the wire drive unit 57 via a bracket 80.

The first lower guide member 83 is mounted on the inner panel 50 using a bracket 131. The bracket 131 is formed with a column-shaped projection 131 a on the surface opposing the inner panel 50 on the side of one end portion thereof as shown in FIG. 4. The projection 131 a is fitted into a hole 50 m of the inner panel 50, so that the bracket 131 is rotatable on the surface which is substantially parallel to the inner panel 50. The first lower guide member 83 is fixed to a midsection of the bracket 131 by techniques such as welding or screwing.

The first lower guide member 83 is formed with a female screw hole 83 a toward the bracket 131. The bracket 131 is formed with a hole 131 b which opposes the female screw hole 83 a of the first lower guide member 83. Then, the bracket 131 and the first lower guide member 83 are mounted on the inner panel 50 by a bolt 133 which is penetrated from the mounting hole 50 e of the inner panel 50 through the hole 131 b of the bracket 131, and is screwed into the female screw hole 83 a of the first lower guide member 83.

In addition, the inner panel 50 is provided with five large holes (service holes). Formed at a substantially center portion is a hole 50 h for installing the window regulator. Formed on an front upper portion is a hole 50 i for assembling a door-inspection apparatus, and formed on a front lower portion is a hole 50 j for assembling a door speaker. Formed on a rear lower portion is a hole 50 k for assembling the window regulator and formed on a rear upper portion is a hole 50 l for assembling a door lock apparatus.

The wire 71 is wound on the first lower guide member 83, the first upper guide member 81, the second lower guide member 93, and the second upper guide member 91 in sequence in a substantially N-shape.

First window glass mounting means (glass holder) 101 for mounting the window glass 53 is provided on a portion of the wire 71 between the first upper guide member 81 and the first lower guide member 83 (a portion of the wire 71 extending along the direction of upward and downward movement of the window glass 53). Also, second window glass mounting means (glass holder) 103 for mounting the window glass 53 is provided on a portion of the wire 71 between the second upper guide member 91 and the second lower guide member 93 (a portion of the wire 71 extending along the direction of upward and downward movement of the window glass 53).

The window regulator 55 is provided with the slack preventing means for eliminating the slack of the wire 71. In this embodiment, first slack preventing means 111 is provided between the wire drive unit 57 and the second upper guide member 91. Also, second slack preventing means 113 is provided between the wire drive unit 57 and the first lower guide member 83. The structure of the first slack preventing means 111 and the structure of the second slack preventing means 113 are the same. Therefore, the description of the structure is given by the second slack preventing means 113, and the description of the structure of the first slack preventing means is omitted.

As shown in FIG. 3( b), a tube 121 for allowing insertion of the wire 71 in the interior thereof is arranged between the wire drive unit 57 and the first lower guide member 83. The side of one end portion of the tube 121 is fitted to a bottomed hole 61 a provided on the base 61 of the wire drive unit 57. The side of the other end portion of the tube 121 is fitted to the bottomed hole 83 a formed on the first lower guide member 83. Arranged in the interior of the bottomed hole 61 a of the wire drive unit 57 is a resilient member (coil spring) 123 configured to urge the tube 121 toward the first lower guide member 83 by being abutted against the bottom surface of the bottomed hole 61 a at one end portion and being abutted against an end surface of the tube 121 at the other end portion. Then, when the wire 71 between the wire drive unit 57 and the first lower guide member 83 is loosened, the resilient member 123 expands and the tube 121 is pushed out from the bottomed hole 61 a, so that the slack of the wire 71 is absorbed. In contrast, when the wire 71 between the wire drive unit 57 and the first lower guide member 83 is tensed, the resilient member 123 contracts and the tube 121 is further inserted into the bottomed hole 61 a, so that the slack of the wire 71 is absorbed.

Furthermore, as shown in FIG. 1, a tube 125 for allowing insertion of the wire 71 in the interior thereof is also arranged between the first upper guide member 81 and the second lower guide member 93.

An operation of the configuration described above will now be described. The first slack preventing means 111 and the second slack preventing means 113 are configured to absorb the slack of the wire 71 to prevent the wire 71 from coming off the guide member.

When the motor 63 is moved to rotate the drum 65 in the normal direction or the reverse direction to move the wire 71, the window glass 53 mounted on the wire 71 via the first window glass mounting means 101 and the second window glass mounting means 103 is moved upward and downward.

Subsequently, a procedure for assembling the window regulator 55 having the configuration as described above will be described.

The window regulator 55 is supplied to an assembly process in a state of being bundled with a band 151 so as to prevent a wire portion from getting tangled up as shown in FIG. 5.

(1) The window regulator 55 is inserted into a space between the inner panel 50 and the outer panel 51 from the hole 50 h at the center portion of the inner panel in a state of being bundled with the band 151 as shown in FIG. 5.

(2) The wire drive unit 57 is mounted on the inner panel 50.

(3) The first upper guide member 81 supported via the bracket 80 is mounted on the inner panel 50.

(4) The bunt 151 is cut off. Then, by the urging forces of the springs of the first slack preventing means 111 and the second slack preventing means 113, the wire 71 is moved in the directions indicated by an arrow D and an arrow E in FIG. 1, and the window regulator 55 is deployed in a predetermined shape without tangling of the wire 71.

(5) The second upper guide member 91 is mounted on the inner panel 50 using the hole 501 of the inner panel 50.

(6) The second lower guide member 93 is mounted on the inner panel 50 using the hole 50 k of the inner panel 50.

(7) The first lower guide member 83 is mounted on the inner panel 50 using the hole 50 j of the inner panel 50. More specifically, the projection 131 a of the bracket 131 is fitted to the hole 50 m of the inner panel 50. By the urging force of the slack preventing means, the bracket 131 assumes a position indicated by a double-dashed line in FIG. 1. Here, a hand is inserted from the hole 50 j of the inner panel 50, an operating force is applied at the other rotating end portion of the bracket 131 on the other side, the bracket 131 is rotated against the urging force of the slacking means, and the female screw hole 83 a of the first lower guide member 83 and the hole 131 b of the bracket 131 are brought to oppose the hole 50 e of the inner panel 50. Then, the bracket 131 and the first lower guide member 83 are mounted on the inner panel 50 with the bolt 133.

(8) The window glass 53 is inserted from a hole formed on a belt line. Using the hole 50 i of the inner panel 50, the window glass 53 is mounted on the first window glass mounting means 101. Using the hole 50 k of the inner panel 50, the window glass 53 is mounted on the second window glass mounting means 103.

In this configuration, the following effects are achieved.

(1) The bracket is 131 mounted rotatably on the inner panel 50. Therefore, the first lower guide member 83 may be guided to the mounting position on the inner panel 50 only by rotating the bracket 131, so that easy assembly is achieved.

(2) The one of the end portions of the bracket 131 is mounted rotatably on the inner panel 50 and the first lower guide member 83 is provided at the midsection thereof. Therefore, the bracket 131 may be rotated with the weak force by the principle of a lever only by applying the operating force to the side of the other end portion of the bracket 131. In other words, the first lower guide member 83 may be guided to the mounting position on the inner panel 50 with the weak force, so that easy assembly is achieved.

(3) By the fact that the rotating plane of the bracket 131 is substantially parallel to the inner panel 50, the invention is also applicable to a door whose distance between the inner panel 50 and the outer panel 51 is small (a door having a small thickness).

Second Embodiment

Although the rotating plane of the bracket is substantially parallel to the inner panel in the first embodiment, it maybe a direction intersecting the inner panel. In this embodiment, a case in which the guide member to be mounted at last is the second lower guide member 93 is assumed. As shown in FIG. 6( a) and FIG. 6( b), the second lower guide member 93 is provided at a midsection of a bracket 201. Furthermore, a bolt 203 is provided on a surface of the bracket 201 opposing the inner panel 50. The bracket 201 is formed with a shoulder 201 a on the side of one end portion thereof. In contrast, the inner panel 50 is formed with a hole 207 which allows engagement with the shoulder 201 a of the bracket 201, and a hole 209 which allows insertion of the bolt 203.

Then, when the shoulder 201 a of the bracket 201 is inserted into the hole 207 of the inner panel, the bracket 201 is brought into a state in which the side of the other end portion of the bracket 201 is apart from the inner panel 50 as shown in FIG. 6( b) by the urging force of the slack preventing means. Here, the operating force in the direction indicated by the arrow E is applied to the other rotating end portion of the bracket 201. Then, the bracket 201 rotates on a plane which intersects the inner panel 50 about the shoulder 201 a as a fulcrum against the urging force of the slacking means. Then, the bolt 203 of the second lower guide member 93 is inserted through the hole 209 of the inner panel 50, and the bracket 201 and the second lower guide member 93 are mounted on the inner panel 50 using a nut, not shown.

In this configuration, the side of the surface of the inner panel 50 opposing the outer panel is needed to have a portion where components or the like cannot be disposed (a dead space) so as to avoid interference with the rotating bracket. However, in this embodiment, the rotating plane of the bracket 201 is the plane intersecting the inner panel 50, so that the dead space on the side of the surface of the inner panel 50 opposing the outer panel 51 may be small.

Third Embodiment

There is a method of using a jig instead of the bracket. In this embodiment, a case in which the guide member to be mounted at last is the second lower guide member 93 is assumed. As shown in FIG. 7( a) and FIG. 7( b), a jig 401 is formed with a recess 401 a in which the second lower guide member 93 is stored at a midsection thereof by techniques such as folding technique. A bottom surface 401 b of the recess 401 a is formed with a hole 401 c for allowing loose fit of a revolving shaft of the second lower guide member 93. In addition, formed on a side portion of the recess 401 a are substantially L-shaped two claw portions 401 d and 401 e which are engageable and disengageable with the surface of the second lower guide member 93 opposing the inner panel 50. In this embodiment, the jig 401 is manufactured of resin having flexibility.

Therefore, the bottom surface 401 b of the recess 401 a, two wall surfaces 401 f and 401 g of the recess 401 a, and the two claw portions 401 d and 401 e of the jig 401 constitute a guide member mounting portion which allows the engagement and disengagement of the second lower guide member 93.

In addition, the jig 401 is formed with a shoulder 401 h on the side of one end portion thereof as in the case of the bracket 201 in the second embodiment. A bolt 403 is provided on a surface of the second lower guide member 93 opposing the inner panel 50.

As shown in FIG. 7( c), the inner panel 50 is formed with the hole 207 which allows engagement with the shoulder 401 h of the jig 401, and the hole 209 which allows insertion of the bolt 403 of the second lower guide member 93.

Then, as shown in FIG. 7( c), when the shoulder 401 h of the jig 401 is inserted into the hole 207 of the inner panel 50 in a state in which the second lower guide member 93 is placed on the recess 401 a of the jig 401 and the claw portions 401 d, 401 e are engaged with the second lower guide member 93, the jig 401 assumes a state as shown in FIG. 7( c) by the urging force of the slack preventing means. Here, an operating force in the direction indicated by an arrow F is applied to the other rotating end portion of the jig 401. Then, the jig 401 rotates on a plane which intersects the inner panel 50 about the shoulder 401 h as a fulcrum against the urging force of the slacking preventing means. Then, the bolt 403 of the second lower guide member 93 is inserted through the hole 209 of the inner panel 50, and the second lower guide member 93 is mounted to the inner panel 50 using a nut, not shown. Then, when the jig 401 is rotated in a direction opposite from the arrow F, the claw portions 401 d, 401 e are resiliently deformed, and the engagement between the claw portions 401 d, 401 e and the second lower guide member 93 is released, so that the jig 401 may be removed.

In this configuration, the following effects are achieved.

(1) The jig 401 is mounted rotatably on the inner panel 50. Therefore, the second lower guide member 93 may be guided to the mounting position on the inner panel 50 only by rotating the jig 401, so that easy assembly is achieved.

(2) Since the jig 401 is mounted rotatably on the inner panel 50 at the one end portion thereof, and is provided with the second lower guide member 93 in the midsection thereof, the jig 401 may be rotated with the small force by the principle of a lever by applying the operating force on the side of the other end portion of the jig 401. In other words, the second lower guide member 93 may be guided to the mounting position on the inner panel 50 with the weak force, so that easy assembly is achieved.

(3) The side of the surface of the inner panel 50 opposing the outer panel is needed to have the portion where the components or the like cannot be disposed (the dead space) so as to avoid interference with the rotating jig. However, in this embodiment, the rotating plane of the jig 401 is the plane intersecting the inner panel 50, so that the dead space on the side of the surface of the inner panel 50 opposing the outer panel 51 may be small.

(4) The bracket 131 and the bracket 201 in the first and second embodiments are members which function only in the component mounting operation, and do not function for the operation of the wind regulator apparatus. The bracket 131 and the bracket 201 are left in the door.

In contrast, in the third embodiment, the jig 401 is a member which functions only in the component mounting operation, and does not function for the operation of the wind regulator apparatus. However, the jig 401 is removed and is not left in the door. Therefore, weight reduction of the wind regulator and cost reduction of the components are achieved.

The present invention is not limited to the above-described three embodiments. Although the wind regulators in the above-described three embodiments have been described as a type having the four guide members and the wire being wound in the substantially N-shape, it is needless to say that it may be applied to a wind regulator having two guide members described in the related art.

BRIEF DESCRIPTION OF THE DRAWINGS

[FIG. 1] FIG. 1 is a drawing of a door provided with a window regulator according to a first embodiment in a state in which an inner panel is removed viewed from a cabin side.

[FIG. 2] FIG. 2 is a drawing showing the inner panel to be mounted on the door in FIG. 1.

[FIG. 3] (a) is an enlarged view, partly broken, of a wire drive unit, and (b) is an explanatory drawing of second slack preventing means.

[FIG. 4] FIG. 4 is a perspective view of a bracket in FIG. 1.

[FIG. 5] FIG. 5 is a perspective view of the window regulator provided for assembly.

[FIG. 6] FIG. 6 is a drawing for explaining an invented portion of a second embodiment, in which (a) is a perspective view of the bracket, and (b) is a drawing for explaining an operation of the bracket.

[FIG. 7] FIG. 7 is a drawing for explaining an invented portion of a third embodiment, in which (a) is a perspective view of a jig, (b) is a perspective view showing a state in which a second lower guide member is mounted on the jig in (a), and (c) is a drawing for explaining an operation of the jig.

[FIG. 8] FIG. 8 is a drawing for explaining a wind regulator in the related art.

DESCRIPTION OF THE REFERENCE NUMERALS AND SIGNS

50 inner panel

51 outer panel

53 window glass

71 wire

81, 83, 91, 93 guide member

101, 103 window glass mounting means

131 bracket

[FIG. 1]

WINDOW GLASS 53

FIRST UPPER GUIDE MEMBER 81

BRACKET 80

FIRST WINDOW GLASS MOUNTING MEANS 101

FIRST SLACK PREVENTING MEANS 111

WIRE DRIVE UNIT 57

SECOND UPPER GUIDE MEMBER 91

SECOND WINDOW GLASS MOUNTING MEANS 103

WIRE 71

BRACKET 131

SECOND SLACK PREVENTING MEANS 113

FIRST LOWER GUIDE MEMBER 83

TUBE 125

WINDOW REGULATOR 55

SECOND LOWER GUIDE MEMBER 93

[FIG. 2]

INNER PANEL 50

[FIG. 3( a)]

DRUM 65

BASE 61

WIRE 71

WIRE DRIVE UNIT 57

MOTOR 63

[FIG. 3( b)]

WIRE 71

BASE 61

BOTTOMED HOLE 61 a

RESILIENT MEMBER 123

TUBE 121

BOTTOMED HOLE 83 a

FIRST LOWER GUIDE MEMBER 83

[FIG. 4]

BOLT 133

FIRST LOWER GUIDE MEMBER 83

HOLE 131 b

FEMALE SCREW HOLE 83 a

BRACKET 131

PROJECTION 131 a

[FIG. 5]

WINDOW REGULATOR 55

BAND 151

[FIG. 6( a)]

SHOULDER 201 a

BOLT 203

WIRE 71

SECOND LOWER GUIDE MEMBER 93

BRACKET 201

[FIG. 6( b)]

HOLE 209

BRACKET 201

INNER PANEL 50

OUTER PANEL 51

HOLE 207

[FIG. 7( a)]

JIG 401

SHOULDER 401 h

RECESS 401 a

BOTTOM SURFACE 401 b

CLAW PORTION 401 d

WALL SURFACE 401 f

HOLE 401 c

CLAW PORTION 401 e

WALL SURFACE 401 g

[FIG. 7( b)]

WIRE 71

BOLT 403

SECOND LOWER GUIDE MEMBER 93

[FIG. 7( c)]

HOLE 207

SECOND LOWER GUIDE MEMBER 93

HOLE 209

INNER PANEL 50

OUTER PANEL 51

JIG 401

[FIG. 8]

DRUM 9

BASE 7

HANDLE 11

WINDOW GLASS 3

UPPER GUIDE MEMBER 15

WINDOW GLASS MOUNTING MEANS 19

DOOR PANEL 1

WINDOW REGULATOR 5

LOWER GUIDE MEMBER 16

WIRE 13 

1. A window regulator comprising: a drum mounted on an inner panel of a door on the side of a surface opposing an outer panel and configured to be able to rotate in a normal direction and a reverse direction; an annular wire partly wound around the drum; a guide member mounted on the inner panel of the door on the side of the surface opposing the outer panel and configured to guide the wire so that the wire is arranged along a direction of upward and downward movement of a window glass; slack preventing means configured to urge the wire in a stretching direction and eliminate the slack of the wire; and window glass mounting means configured to mount the window glass to the wire at a portion extending along the direction of upward and downward movement of the window glass, in which the wire is moved by rotating the drum in the normal direction or the reverse direction to move the window glass upward and downward, characterized in that a bracket being mounted rotatably on the inner panel and having the guide member at a portion other than a center of rotation, and being configured to guide the guide member to a mounting position on the inner panel is provided.
 2. The window regulator according to claim 1, characterized in that one of end portions of the bracket is mounted rotatably on the inner panel and the guide member is provided at a midsection thereof.
 3. The window regulator according to claim 1 or 2, characterized in that a rotating plane of the bracket is a plane intersecting the inner panel.
 4. The window regulator according to claim 1 or 2, characterized in that the rotating plane of the bracket is substantially parallel to the inner panel.
 5. A jig used when assembling a window regulator including a drum mounted on an inner panel of a door on the side of a surface opposing an outer panel and configured to be able to rotate in a normal direction and a reverse direction; an annular wire partly wound around the drum; a guide member mounted on the inner panel of the door on the side of the surface opposing the outer panel and configured to guide the wire so that the wire is arranged along a direction of upward and downward movement of a window glass; slack preventing means configured to urge the wire in a stretching direction and eliminate the slack of the wire; and window glass mounting means configured to mount the window glass to the wire at a portion extending along the direction of upward and downward movement of the window glass, in which the wire is moved by rotating the drum in the normal direction or the reverse direction to move the window glass upward and downward, comprising: an inner panel mounting portion being engageable and disengageable with respect to the inner panel and being rotatable with respect to the inner panel in a state of engaging the inner panel, and a guide member mounting portion which allows engagement and disengagement with the guide member. 